DE2259539A1 - SILENCER - Google Patents

Description

Safety Vehicles Development AB _?

S-182 74 Stocksund, Sweden

silencer

The invention relates to a silencer, in particular for motor vehicles, comprising a switchable in an exhaust gas system, Housing provided with inlet and outlet, in which partitions are arranged for deflecting the gas flow are, wherein Sas throughflow openings are arranged alternately on opposite side walls of the housing and at least one partition has a curved part and with the housing a gap-shaped gas throughflow opening delimits.

The invention has for the purpose of a new muffler Art to create an extraordinarily high degree of soundproofing connects with a low flow resistance »The invention is characterized in that the building material of the Silencer made of heat-resistant plastic, preferably polyester, and that the provided with the curved part Intermediate wall has a shape concave in the direction of the inlet end, as a result of which the intermediate wall in question captured gases are deflected back in the direction of the inlet end of the housing before they open the gap-shaped opening flow through. Another object of the invention is to provide a muffler that is simple and durable.

A operated by practical tests explanation ₈ that the invention according muffler is substantially lower in comparison with conventional mufflers flow resistance, in that the gekrümten and thereby the gas flow

309824/0387

intercepting partition walls exclude or reduce the occurrence of turbulence in the gas flow and one essentially Maintain laminar flow character. The astonishing factor depends on the laminar flow character of the gas flow low volume together.

The invention is hereinafter in some embodiments described in more detail with reference to the accompanying drawing. Show it:

1 shows a longitudinal section through a first embodiment of the silencer according to the invention, and FIG. 2 shows a longitudinal section by a second embodiment of the silencer, FIG. 3 a cross section through the silencer according to FIG. 2, FIG. 4 a longitudinal section through a third embodiment of the silencer, and FIG. 5 shows a longitudinal section through a fourth embodiment of the silencer according to the invention,

In all embodiments, the muffler consists of a housing 1, the at least one, the exhaust gas flow contains influencing, and thereby sound-absorbing partition. The housing 1 is connected to the relevant exhaust line can be connected by means of connecting members 2a or 2b.

The silencer shown in Fig. 1 basically comprises a partition 1, which has a curved shape around the through Catch and redirect gases flowing through the silencer. For the passage of the gas flow through the silencer there is an opening between the partition · + and the housing left. This opening is at the end of the curvature of the Partition wall, so that the gas stream can flow between the curved partition wall part and the housing.

In the case shown, the partition U comprises a flat, to the longitudinal direction of the muffler inclined part 6 and a curved part 7, which is preferably rounded in an arc shape is. It should be noted that the flat part 6 is a

309824/038

has a significantly larger surface than the curved part 7.

The rounded part 7 of the partition should be gently rounded and have a radius of curvature between 1/5 and H / 5, preferably between 1/3 and 2/3., expediently about 1/2 of the internal transverse dimension or diameter of the housing.

According to a special feature of the invention, before and / or after the curved partition 4 there are one or more shielding devices provided, which are expediently arranged to deflect the ßassirrom from the flow opening 5 and the Extend the way of the gases through the housing 1. In the case shown, both one are calculated in the direction of gas flow. the A screen 8 lying on the intermediate wall 4 as well as a screen 9 lying after the intermediate wall 4 are attached. Each of the umbrellas 8 and 9 has a whole wall part and a wall part provided with passage openings 10 and 11, respectively. The passage openings 10 of the screen 8 lying in front of the partition 4 as well as the passage openings 11 of the after the partition 4 lying screen 9 are close to the housing side 12, which is opposite that housing side 13 in which the flow opening 5 is left between the partition and the housing. As a result, the gas flow is always in one more or less zigzag trajectory guided in the figure is indicated with arrows. The passage openings 10 and 11, respectively in the screens 8 and 9 preferably consist of a plurality of small holes.

Fig. 2 shows an embodiment in which two partition walls

14 and 15 in opposite inclinations on opposite sides Housing walls 12 and 13 are attached, whereby the flow openings 16 and 17 for the gases alternate on one and the other of said two opposite walls 12 and 13 are located. It should be noted that the in the direction of flow calculated after the partition walls 14 and

15 arranged screen wall 9 has its gas passage openings 11 in the vicinity of the housing part 14 during the connection

309824/0387

nozzle 2b formed outlet from the housing close to the standing housing wall part 12 is. As a result, the gas flow is guided in the zigzag paths indicated by arrows in FIG. 2.

The rear partition 15, calculated in the general direction of flow, is arranged around that of the preceding one Intermediate wall 14 to catch gases flowing past and to guide them back. It goes without saying that more than two partitions can be used be arranged in the housing. The position and the inclination of the screen walls 9 as well as the position of the connecting pieces also depends on the number of partitions in the housing.

It is also possible in the embodiment shown in FIG to attach the flat parts of the partitions 14 and 15 in a mainly parallel position.

In FIG. 3, one of several possible cross-sectional shapes of the housing 1, namely the rectangular cross-sectional shape, is shown. The housing 1 can thus in addition to the aforementioned Pages 12 and 13 have two sides 18 and 19, which are shorter than the sides 12 and 13 to the aforementioned rectangular Form cross-sectional shapes. The partition 14 as well such as further existing partition walls can be according to the invention preferably adjoin tightly on three sides or walls 12, 18 and 19 of the housing, one being the throughflow opening 16 forming gap between the intermediate wall and the fourth housing wall 13 is left.

Although Fig. 3 shows a rectangular housing cross-section, many other cross-sectional shapes are also conceivable, e.g. square, Kias-shaped, oval or even polygonal cross-sections. Regardless of the cross-sectional shape of the housing, it is desirable that the partition walls attached in the housing approximately tangent to or adjacent to the inside of the housing.

309824/038 7

A generatrix of the curved part 7 of an intermediate w according to Fig. 1 or the corresponding curved parts of the partition walls 14 and 15 according to Fig. 2 is always parallel to itself and preferably also parallel to one or two housing walls, in this case to walls 12 and 13.

Fig. M- shows an embodiment in which the muffler contains two screen devices 25 and 26, each consisting of at least two screen walls 27 and provided with passage openings 28 exist which, together with parts of the housing, delimit a container-like space 29 in the housing 1. The room 29 can be triangular, as shown in FIG. 4, or in some other way be trained. So it is not necessary that the screen walls 27 and 28 converge at one point, but they can be separated from one another, even if they are attached to the housing are.

A sound-absorbing material can be used in the screen space formed by the screen walls and by parts of the housing walls such as mineral wool or steel wool. The space can be completely or only partially filled with such material.

According to the principle of the invention, the inlet opening is 30 attached to the screen space 29 close to the housing side 13, the. that side of the housing 12 is opposite at which the outlet opening 31 of the umbrella room is located. The outlet opening 31 is in turn attached to the housing side that is opposite to that is, in which the throughflow opening 32 lies between the housing wall and the intermediate wall 33.

The location of the other screen device 26 and its inlet and The outlet opening depends on the number of partitions in the housing. In the embodiment shown in Fig. 4- Partition 33 curved arcuately over its entire length.

In Fig. 5 an embodiment is shown in which in the housing

309824/0387

three partition walls 34, 35 and 36 are attached, which are curved aTiranVer the entire length of an arc. A screen device is attached in front of the partition walls and a second screen device after the partition walls. In this case, only the screen device 38 arranged after the partition walls is filled with sound-absorbing material, while the screen device 37 arranged in front of the partition walls is empty. It should be noted that the first screen device 37 is arranged in the opposite position with respect to the direction of the triangle tip in relation to the adjacent partition wall in relation to the first screen device 25 according to FIG. 1. Thus, the tapered or converging part of the screen space faces that housing wall 13 which, together with the partition 3 ¹ I, delimits the throughflow opening for the gases. The shielding device 38 is also reversed with respect to the shielding device 26 according to FIG. 4, since the number of partition walls in both embodiments according to FIGS. 4 and 5 is uneven. The inlet opening 39 to the umbrella device 37 is arranged in the tapered part of the device, while the outlet opening lies in the opposite, further part of the device.

According to the invention, the housing, the partition walls and the Shield devices are made of heat-resistant plastic, preferably with fiberglass or other reinforcement material is reinforced. If such a heat-resistant plastic is used, it is advisable to use the partitions and, for example to attach existing shielding devices by fusion splitting on the inside of the housing.

According to a special feature of the invention that can attached to the housing 1 connecting member two or more coaxial, offset in the axial direction pipe pieces of different Include diameter. Such an embodiment the connecting members are shown in FIG. 1. Thus, for example, the connecting member 2a has a first one on the housing 1 attached pipe socket 41 of the smallest diameter, a second pipe socket 42 adjoining this on the outside somewhat

309824/0387

larger diameter and one adjoining the latter third pipe socket 43 with an even larger diameter. The advantage of such connecting links is that the Silencers can be connected to exhaust pipes of various sizes in a simple and practical manner. The exhaust pipe can be inserted into the outermost pipe socket, and if this does not fit, the pipe is fed further in, until it protrudes into a pipe socket of the appropriate diameter. Those lying outside the matching pipe socket Pipe sockets can then be sawn off and the exhaust pipe firmly connected to the matching pipe socket. That way the disadvantages with a large number of different dimensions of the exhaust pipes, especially in motor vehicles, are avoided.

Instead of the connecting links with gradually increasing away from the housing Connection members can also be designed with diameters, the diameter of which decreases gradually from the housing. It is further possible to form connecting members with more than the three pipe sockets shown. ■ ·

The heat absorption of a silencer from the gases flowing through depends on the P.vt of the flow in the silencer. Because, according to the invention, the flow is as laminar as possible, the heat absorption of the silencer can be reduced, which is advantageous, among other things, with regard to durability.

In practice it has been shown that by using plastic, in particular polyester, as a building material for the Silencer is possible to simplify the production in a way that was not previously possible with the usual sheet metal building materials was possible. Equally valuable is the fact that the transition from sheet metal to plastic results in improved sound absorption, which is largely due to the special Material properties of the plastic is due.

The invention is not limited to those described above and based on

309824/0 387

2259533

Embodiments shown in the drawing are limited. Thus, the geometric shape of both the intermediate walls and the screen devices modified in various ways within the scope of the invention defined in the following claims will.

309824/0387

Claims (11)

Safety Vehicles Development AB, S-182 74 Stocksund , Sweden Claims Silencer, in particular for motor vehicles, comprising a switchable in an exhaust gas system, with inlet and Housing provided with outlet, in which partition walls for deflection of the gas flow are arranged, with gas flow openings alternately on opposite side walls of the Housing are arranged and at least one partition has a curved part and with the housing a columnar Delimiting gas flow opening, characterized in that the building material of the silencer heat-resistant plastic, preferably polyester, and that the intermediate wall provided with the curved part (7) (4,14,15,33-36) has a shape that is concave in the direction of the inlet end (2a), as a result of which the intermediate wall in question Trapped gases are diverted back towards the inlet end of the housing before they pass through the gap-shaped Flow opening (5,15,32). 2. Silencer according to claim 1, characterized in that the provided with a curved part (7) Partition (6,14,15,33-36) has its smallest radius of curvature in the area of its free edge part and that the free edge part is directed opposite to the main flow direction in the space in front of the partition. 3. Silencer according to claim 1 or 2, characterized marked t, = that the curved part (7,33-36) generated one by parallel displacement of a straight generating line Has a shape, the generatrix expediently lying perpendicular to the longitudinal axis of the housing (1). 4. Silencer according to claim 3, characterized in that the housing (1) has a rectangular transverse 309824/0387 has a sectional shape and that the generatrix is parallel to the one Side wall (12 or 13) of the housing (1) runs. 5. Silencer according to one of the preceding claims, characterized in that the curved part encompasses the entire partition (33-36). 6. Silencer according to one of claims 1-4, characterized in that the intermediate wall 7,14,15) provided with a curved part has a flat part (6) which comprises the greater part of the surface of the intermediate wall, while the curved ¹ Ml (7) covers only a smaller part of the intermediate wall surface and lies on the free edge of the intermediate wall » 7. Silencer according to one of the preceding claims, characterized in that the radius of curvature of the curved part (7.33-36) 1/5 to 4/5, preferably 1/3 to 2/3, expediently about 1/2 of the inner transverse width of the Housing is. 8. Silencer according to one of the preceding claims, characterized in that one of the inlet and / or the outlet end of the housing closest intermediate wall (8 or 9; 27) has a passage opening (10, 11, 30, 39), that consists of several holes in the intermediate wall which are close to one another and close to one side surface of the housing consists. 9. Silencer according to claim 8, characterized in that between said, perforated partition (27) and a curved partition (33,34,36) one others carried out in a similar way to the perforated partition Partition (28) is attached, which together with the first-mentioned perforated partition (27) a space (25,26,37, 38) in the interior of the housing (1). 309824/0387 10. Silencer according to claim 9, characterized in that the space (25,26,38) wholly or partially is filled with sound-absorbing material. 11. Silencer according to one of the preceding claims, characterized in that the plastic is fiber-reinforced. 30 9824/0387 Blank page